8/3/2019 NN10012-111_08.05 SPM Fundamentals
1/22
Carrier VoIP
Nortel SPM FundamentalsRelease: (I)SN09UDocument Revision: 08.05
www.nortel.com
NN10012-111.
8/3/2019 NN10012-111_08.05 SPM Fundamentals
2/22
Carrier VoIP
Release: (I)SN09U
Publication: NN10012-111
Document status: Standard
Document release date: 30 June 2008
Copyright 2008 Nortel Networks
All Rights Reserved.
Printed in Canada, the United States ofAmerica,andt the UnitedKingdom
LEGAL NOTICE
While the information in this document is believed to be accurate and reliable, except as otherwise expressly
agreed to in writing NORTEL PROVIDES THIS DOCUMENT "AS IS" WITHOUT WARRANTY OR CONDITION OF
ANY KIND, EITHER EXPRESS OR IMPLIED. The information and/or products described in this document are
subject to change without notice.
Nortel, the Nortel logo, Business Made Simple and the Globemark are trademarks of Nortel.
All other trademarks are the property of their respective owners.
.
8/3/2019 NN10012-111_08.05 SPM Fundamentals
3/22
3.
Contents
New in this release 5Features 5
Other changes 5
SPM description 7SPM hardware 7
Dual shelf assembly 7
Description of dual shelf SPM components 7
Description of tools and utilities 12
Timing configurations 12
Loop timing 12
Back-to-back timing 12
External synchronization interface (ESI) timing 13
Software 13
Software loads 13
Delivery and ordering processes 18
Upgrade and patch system 18OAMP strategy 18
Interfaces 18
Network interfaces and protocols 18
User interfaces 19
Carrier VoIPNortel SPM Fundamentals
NN10012-111 08.05 Standard
30 June 2008Copyright 2008 Nortel Networks
.
8/3/2019 NN10012-111_08.05 SPM Fundamentals
4/22
4
Carrier VoIPNortel SPM Fundamentals
NN10012-111 08.05 Standard
30 June 2008Copyright 2008 Nortel Networks
.
8/3/2019 NN10012-111_08.05 SPM Fundamentals
5/22
5.
New in this release
The following section details whats new in SPM Basics, (NN10012-111)for release (I)SN09U:
Features (page 5)
Other changes (page 5)
FeaturesThere were no feature changes made to this document.
Other changesThere were no other changes made to this document.
Carrier VoIPNortel SPM Fundamentals
NN10012-111 08.05 Standard
30 June 2008Copyright 2008 Nortel Networks
.
8/3/2019 NN10012-111_08.05 SPM Fundamentals
6/22
6 New in this release
Carrier VoIPNortel SPM Fundamentals
NN10012-111 08.05 Standard
30 June 2008Copyright 2008 Nortel Networks
.
8/3/2019 NN10012-111_08.05 SPM Fundamentals
7/22
7.
SPM description
The Spectrum Peripheral Module (SPM) is a set of information processingmodules that provide Digital Multiplex System (DMS) and Global Systemfor Mobile Communications (GSM) wireless switches with direct access tooptical carrier (OC) networks.
SPM hardwareDual shelf assembly
The basic mechanical element of the SPM consists of a dual shelfassembly mounted to a common backplane. A shelf assembly containstwo identical shelves.
Each shelf contains resource modules (RM) which plug into the backplane.
The resource modules contain circuit cards that perform a variety offunctions such as supplying electrical power and providing opticalconnections to a high speed transport network. SPM resource modules
also provide call processing and high speed carrier capabilities. A dualshelf assembly contains 30 slots and can contain 20 RMs.
The dual shelf assembly of an SPM contains all of the componentsrequired to serve as an element (node) in the optical transport network.
A standard equipment frame contains two dual shelf assemblies thatcontains two complete SPM nodes.
Description of dual shelf SPM componentsFigure 1 "SPM frame and components" (page 8) shows the SPM frameand its components. The NTLX91BA frame assembly is comprised of two
NTLX51BA dual-shelf assemblies (two complete SPMs) and the necessarysupport equipment.
Carrier VoIPNortel SPM Fundamentals
NN10012-111 08.05 Standard
30 June 2008Copyright 2008 Nortel Networks
.
8/3/2019 NN10012-111_08.05 SPM Fundamentals
8/22
8 SPM description
Figure 1SPM frame and components
Table 1 "SPM components" (page 8) lists and describes the hardwarecomponents and the role of each component used in the SPM. Not allresource modules apply to all markets.
Table 1SPM components
SPM component Description
NTLX91BA frame assembly Frame and backplane assembly. Same frameassembly as used in SPM and MG4K networkelements.
Carrier VoIPNortel SPM Fundamentals
NN10012-111 08.05 Standard
30 June 2008Copyright 2008 Nortel Networks
.
8/3/2019 NN10012-111_08.05 SPM Fundamentals
9/22
SPM hardware 9
Table 1SPM components (contd.)
SPM component Description
NTLX51BA dual-shelf assemblies Each frame assembly contains two identical
dual shelf assemblies.
Each dual shelf assembly contains 30 slots,
15 slots per shelf, to accept resource modules
(RMs). Some slots are reserved for specific
RMs, as described below and shown in the
figure.
NTLX61AA Shelf Interface Modules (SIMs) SIMs have dedicated slots in SPM shelves andboth SIM RMs must always be provisioned. Two SIMs are located in each dual shelf
assembly with one SIM located in each slot15 of shelves 0 and 1.
SIMs act as the DC power conditioner for thedual-shelf assembly for the SPM.
SIMs serve as the alarm interface betweenthe common equipment modules (CEMs)and the NTLX57AA power connectioninterface unit (PCIU).
provides SPM test bus access
NTLX82 or NTLX82 Common EquipmentModules (CEMs)
CEMs have dedicated slots in the SPM shelvesand both must always be provisioned.
Two CEMs are located slots 7 and 8 of eachshelf 0 of each dual shelf assembly.
CEMs control the signal processing andprovide the system clock.
CEMs have four front mounted optical pointsto connect fiber to the ENET paddle boardsusing DS-512 links.
CEMs route the bearer traffic over theS-links through the backplane to the GEMs.
CEMs cannot be returned to service (RTS) if
they are located (and datafilled) in slots 1, 2,
7, or 8 of shelf 1 of a high-speed backplane
(NTLX51BA).
Carrier VoIPNortel SPM Fundamentals
NN10012-111 08.05 Standard
30 June 2008Copyright 2008 Nortel Networks
.
8/3/2019 NN10012-111_08.05 SPM Fundamentals
10/22
10 SPM description
Table 1SPM components (contd.)
SPM component Description
NTLX71AA OC-3 interface modules Two NTLX71AA OC-3 interface modules are
used for each dual-shelf assembly.
The OC-3 interface module is a synchronous
optical network (SONET) OC-3 trunk interface
module for the SPM. It allows the SPM to
terminate SONET OC-3 transmission systems
carrying DS3, asynchronous VT1.5, and
byte-synchronous VT1.5 payloads.
The OC-3 modules cannot be returned to
service (RTS) if they are located (and datafilled)
in slots 1, 2, 7, or 8 of shelf 1 of a high-speed
backplane (NTLX51BA).
NTLX72AA or NTLX72BA data link controller(DLC)
Two NTLX72AA or NTLX72BA data link
controller (DLC) resource modules are used for
each dual-shelf assembly.
The DLC RM provides data-link layer
protocol termination for multiple-port data
communications. It uses HDLC-based frame
structures, such as LAPD for ISDN PRI.
Signal processor modules (DSP or VSP) Each dual frame assembly can contain 0 to 24
DSP or VSP resource modules. Supported RMtypes:
NTLX65AA or NTLX65BA Digital SignalProcessors (DSP)
NTLX66AA, NTLX66BA, NTLX85AA,NTLX86AA DSPs
NTLX86VA (IECAN for wireless market)VSPs
The DSP (DSP) resource modules providedigital signal processing services, such as:
multi-frequency (MF) receiver for the SPM
dual-tone multi-frequency (DTMF) receiver continuity tone transceiver (COT) programmable tone synthesizer
(TONESYN), and A/B bit handler (ABBIT)
Voice Services Processor (VSP) resource
modules provide resources for call processing
such as echo cancellation (ECAN) for the SPM.
Carrier VoIPNortel SPM Fundamentals
NN10012-111 08.05 Standard
30 June 2008Copyright 2008 Nortel Networks
.
8/3/2019 NN10012-111_08.05 SPM Fundamentals
11/22
SPM hardware 11
Table 1SPM components (contd.)
SPM component Description
Any combination of up to 24 DSP and VSPRMs is supported. Typically, the number of
necessary DSP and VSP resource modules is
less than 24.
DSPs and VSPs cannot be returned to service
(RTS) if they are located (and datafilled) in
slots 1, 2, 7, or 8 of shelf 1 of a high-speed
backplane (NTLX51BA).
NTLX44AA Synchronization Resource Module(SRM)
A single SRM provides a timing and
synchronization interface.
The SRM receives clocking information through
DS1 input links from a Timing Signal Generator
(TSG) which provides Stratum 1 accuracy.
The SRM must be provisioned in slot 6 on the
Interworking Spectrum 0.
SRMs cannot be returned to service (RTS) if
they are located (and datafilled) in slots 1, 2,
7, or 8 of shelf 1 of a high-speed backplane
(NTLX51BA).
NTLX55AA cooling unit The cooling unit provides forced-air cooling tothe SPM frame and components using fourNTLX56AA fan assemblies.
NTLX57AA power connection interface unit
(PCIU)
Serves as a central gathering point for all power
and alarm cabling used within the NTLX91BAframe assembly.
NT9X40DA paddleboard Provides the SPM interface to the DMS switch
and the enhanced network (ENET)
The paddleboard supports four SPM DS-512
connections to the ENET.
Carrier VoIPNortel SPM Fundamentals
NN10012-111 08.05 Standard
30 June 2008Copyright 2008 Nortel Networks
.
8/3/2019 NN10012-111_08.05 SPM Fundamentals
12/22
12 SPM description
Description of tools and utilitiesAll tools and utilities for the SPM are provided through the Maintenanceand Administrative Position (MAP) screens. MAP screens and commandshelp operating company personnel to operate and maintain the SPM atthe node level, as well as to maintain the modules (circuit packs) within
the SPM.
Timing configurationsThe SPM supports several the following timing configurations:
loop timing
back-to-back timing external synchronization interface (ESI) timing Timing Signal Generator (TSG) timing
Loop timingIn loop timing operational mode, each SPM synchronizes to either of thetwo OC-3 carriers from the SONET/SDH network and is terminated onthe active CEM. The active CEM oscillator (SONET Minimum clock) thendistributes the timing signal to the Inactive CEM, and to all of the ResourceModules (RMs). When no OC-3 signal is present, the SPM reverts tointernal timing from the MS clock.
The SONET/SDH NE that provides the OC-3 signal and the MS clock haveto be traceable back to the same reference clock. Failure to comply withthis constraint could cause data integrity problems in the system.
The relevant data schema table for this configuration is table MNNODE. Touse loop timing, field CLKREF must be set to LOOP.
Loop timing should only be used in SP16MR1, SP17, and later releasesthat contain the AutoPhase Bleed Feature or in SP14 and SP15 loads thathave the AutoPhase Bleed Feature patch applied.
Back-to-back timingIn this configuration, SPMs connect two offices with a point-to-pointconnection over OC-3 fiber circuits. This configuration is not SONETcompliant, as compliance is not required because the SPMs communicate
directly. The SPMs that are directly interconnected must be configuredfor internal-timing operation.
Set the data schema table MNNODE, field CLKREF to INTERNAL.
Carrier VoIPNortel SPM Fundamentals
NN10012-111 08.05 Standard
30 June 2008Copyright 2008 Nortel Networks
.
8/3/2019 NN10012-111_08.05 SPM Fundamentals
13/22
Software 13
External synchronization interface (ESI) timingSPM ESI line Timing is an alternative timing to loop timing. It is a variationof the DTC slave office timing where a peripheral module is used as thetiming input for the system. It takes advantage of the high phase resolutionand sampling frequency provided by the SPM to improve synchronization
performance and meet the SONET standards. The main benefits of SPMESI Timing are
allow timing directly from the Building Integrated Timing Supply (BITS)network
provide Stratum 3E holdover performance when the BITS links are lost
The introduction of the SRM in an SPM permits the MS in a slave linetiming configuration to derive its timing from incoming BITS carriersterminated on an SRM
designated as a reference source, and
an SPM as a reference node to distribute this timing signal to all theperipherals in the office
In this configuration, the MS clock benefits from the SRM high phaseresolution and more frequent sampling of the incoming BITS referencecarrier. As a result, SPMs timed to the MS retain SONET qualitysynchronization performance.
This configuration requires 2 SPMs, each configured with a single SRM(NTLX44AA) module which provides two direct DS-1 timing inputs from theoffice BITS clock. The MS clock card NT9X53AD is the baseline hardware
used for this configuration.
In table MNNODE, the CLKREF field must be set to INTERNAL for allSPMs in the office. Table SYNCLK is provisioned in Slave mode usingSPMs with SRMs as the timing references.
For more information on how to configure SPM timing, refer to InstallationMethod 65-0628, "Upgrading MS Clock to SPM - OC-3 Line/SYNC RMTiming."
Software
Software loadsSome SPM loads are patchable through corrective post-release softwareupdates (PRSUs). Patchable loads and nonpatchable loads have differentfile name standards.
Carrier VoIPNortel SPM Fundamentals
NN10012-111 08.05 Standard
30 June 2008Copyright 2008 Nortel Networks
.
8/3/2019 NN10012-111_08.05 SPM Fundamentals
14/22
14 SPM description
SPM load file name standards for patchable loadsThere are two types of patchable SPM software loads:
base SPM software loads, and
pre-patched SPM loads (PPSLs)
PPSLs have PRSU files built in to the SPM load file. PPSLs do not reducethe number of PRSUs for a given load, but they reduce the number ofPRSUs applied manually to the load.
The load file name for base SPM software loads must follow the formatZZANNZZ_NNNNNN.
The load file name for PPSLs must follow the format ZZANNZZ_NNNNNNZN.
whereZ is a letter (A to Z)
A is alphanumeric (A to Z, 0 to 9)
N is numeric (0 to 9)
Figure 2 "SPM load file naming standards for patchable base loads" (page14) shows an example of a filename for patchable loads.
Figure 2SPM load file naming standards for patchable base loads
Patchable SPM load file names must contain 14 or 17 characters, forexample, CEM16AA_010000 and OC-316AL_010011B2. The two letters
of the patchable load release increment in unison with the last twonumbers of the postfix index. For example, the first SP16 load file namefor the CEM load has a patchable load release of AA. The last two lettersof the postfix index are 00. As a result, the first SP16 load file namefor CEM is CEM16AA_010000. Subsequent SP16 load file names forCEM loads increment to CEM16AB_010001, CEM16AC_010002 and on.Table 2 "SPM load file names for patchable loads" (page 15) provides anexplanation of the SPM patchable load file naming conventions.
Carrier VoIPNortel SPM Fundamentals
NN10012-111 08.05 Standard
30 June 2008Copyright 2008 Nortel Networks
.
8/3/2019 NN10012-111_08.05 SPM Fundamentals
15/22
Software 15
Table 2SPM load file names for patchable loads
Characterposition
Explanation(example: ZZANNZZ_NNNNNNZN)
Examples
1 to 3 (ZZA) processor typeCharacter positions 1 to 3 indicate theprocessor type. The processor type isconstant over software releases.
CEM
DLC
DSP
OC-3
SRM
4 to 5 (NN) milestone release numberCharacter positions 4 to 5 indicate themilestone release number. The numberchanges when Nortel releases a newmilestone load.
16
6 to 7 (ZZ) patchable load releaseCharacter positions 6 to 7 increment witheach patchable load released.
AA
AB
8 (_) delimiterCharacter position 8 is the delimiter for thepostfix index.
_
9 to 14(NNNNNN)
postfix indexCharacter positions 9 to 14 indicate the
postfix index. The number changes whenNortel releases a new maintenance oremergency load.
010001
010002
16 to 17 (ZN) PPSL indexCharacter positions 16 through 17 indicatethe optional PPSL index.
A1B2
Use the figures below, Figure 3 "SPM load file naming standards forpatchable base loads" (page 16) and Figure 4 "SPM load file namingstandards for PPSLs" (page 16), to help understand the load file namingconventions used. The CEM load file names are examples only. The samenaming standards apply to patchable RMs.
Carrier VoIPNortel SPM Fundamentals
NN10012-111 08.05 Standard
30 June 2008Copyright 2008 Nortel Networks
.
8/3/2019 NN10012-111_08.05 SPM Fundamentals
16/22
16 SPM description
Figure 3SPM load file naming standards for patchable base loads
Figure 4SPM load file naming standards for PPSLs
SPM load file name standards for nonpatchable loadsThe SPM load file name must contain 14 characters, for example,COH0016_000001, and must follow the format ZZANNNN_NNNNNN
where
Z is letter (A to Z)
A is alphanumeric (A to Z, 0 to 9)
N is numeric (0 to 9)
Table 3 "Explanation of SPM load file names for nonpatchable loads"(page 17) provides an explanation of the SPM load file name.
Carrier VoIPNortel SPM Fundamentals
NN10012-111 08.05 Standard
30 June 2008Copyright 2008 Nortel Networks
.
8/3/2019 NN10012-111_08.05 SPM Fundamentals
17/22
Software 17
Table 3Explanation of SPM load file names for nonpatchable loads
Characterposition
Explanation(example: ZZANNNN_NNNNNN)
Examples
1 to 3 (ZZA) processor typeCharacter positions 1 to 3 indicate theprocessor type. The processor type is thesame for all software releases.
COH
4 to 7 (NNNN
)
milestone release numberCharacter positions 4 to 7 indicate themilestone release number. The numberchanges when Nortel releases a newmilestone load.
0016
8 (_) delimiterCharacter position 8 is the delimiter for thepostfix index.
_
9 to 14(NNNNNN)
postfix indexCharacter positions 9 to 14 indicate thepostfix index. The index changes whenNortel releases a new maintenance or
emergency load.
000001
000002
Figure 5 "SPM load file naming standards for nonpatchable loads"(page 17) shows an example of the nonpatchable SPM load file namingstandards. The COH load file name is an example only.
Figure 5SPM load file naming standards for nonpatchable loads
Carrier VoIPNortel SPM Fundamentals
NN10012-111 08.05 Standard
30 June 2008Copyright 2008 Nortel Networks
.
8/3/2019 NN10012-111_08.05 SPM Fundamentals
18/22
18 SPM description
Delivery and ordering processesWhen an SPM frame or a PCL upgrade is ordered for a site with in-serviceSPMs, Nortel schedules and provisions the applicable SPM non-computingmodule load (NCL). The required SPM NCL is determined by predefined
Nortel Engineering rules.
An SPM NCL order scheduled in Software Capacity and Scheduling/Unified Networks Integrated Tool Environment (SCS/UNITE) automaticallygenerates a load shipment milestone. The software load distribution mediais manufactured and shipped with the applicable NCL Release Documentand Maintenance Release Notes to the SPM NCL shipment addressdefined in SCS.
Upgrade and patch systemSoftware upgrades for the SPM are completed by upgrading each circuitpack. This is done using the MAP screen.
At SP16, SPM patching is available for the following loads:
common equipment modules (CEM)
data link controller (DLC) data link controller 2 (DL2) digital signal processor (DSP), including LX66 voice signal processor
(VSP)The DSP load contains the LX66 VSP, as well as the DSP upgradesoftware.
optical carrier rate 3 (OC-3)
synchronization resource module (SYN)
Nortel does not provide patching functionality to the LX85 and LX86 (COH)loads.
OAMP strategyOperations, administration, maintenance, and provisioning for the SPM isperformed using the MAP commands.
InterfacesNetwork interfaces and protocols
SPM nodes directly terminate an OC-3 SONET carrier and route theindividual digital-signal-level-zero (DS-0) traffic from the carrier into theDigital Multiplex Switch (DMS). The active OC-3 module in the SPMdivides the incoming OC-3 SONET time division multiplex (TDM) signalinto digital signal level 0 (DS-0) timeslots.
Carrier VoIPNortel SPM Fundamentals
NN10012-111 08.05 Standard
30 June 2008Copyright 2008 Nortel Networks
.
8/3/2019 NN10012-111_08.05 SPM Fundamentals
19/22
Interfaces 19
The OC-3 module sends the signals to the 12K-port time-switch in theSPM common equipment module (CEM). The CEM routes the signals toother modules using serial links (S-links). The CEM also routes signalsdirectly to the DMS enhanced network (ENET) for call processing. Thesignals pass through four DS-512 host links between the CEM and an
ENET paddleboard on the DMS switch.
User interfacesThe MAP is the user interface for data provisioning, alarm surveillance,controls, and performance monitoring.
Carrier VoIPNortel SPM Fundamentals
NN10012-111 08.05 Standard
30 June 2008Copyright 2008 Nortel Networks
.
8/3/2019 NN10012-111_08.05 SPM Fundamentals
20/22
20 SPM description
Carrier VoIPNortel SPM Fundamentals
NN10012-111 08.05 Standard
30 June 2008Copyright 2008 Nortel Networks
.
8/3/2019 NN10012-111_08.05 SPM Fundamentals
21/22
8/3/2019 NN10012-111_08.05 SPM Fundamentals
22/22
Carrier VoIP
Nortel SPM Fundamentals
Copyright 2008 Nortel Networks
All Rights Reserved.
Release: (I)SN09U
Publication: NN10012-111
Document status: Standard
Document revision: 08.05
Document release date: 30 June 2008
To provide feedback or to report a problem in this document, go to www.nortel.com/documentfeedback.
www.nortel.com
Printed in Canada, the United States of America, and the United Kingdom
LEGAL NOTICE
While the information in this document is believed to be accurate and reliable, except as otherwise expressly agreed to in writing
NORTEL PROVIDES THIS DOCUMENT "AS IS" WITHOUT WARRANTY OR CONDITION OF ANY KIND, EITHER EXPRESS
OR IMPLIED. The information and/or products described in this document are subject to change without notice.
Nortel, the Nortel logo, Business Made Simple and the Globemark are trademarks of Nortel.
All other trademarks are the property of their respective owners.